DE258016C - - Google Patents

Description

IMPERIAL

K5 '

PATENT OFFICE.

PATENT LETTERING

- M 258016 CLASS 21 h. GROUP

Holder for wires or tapes to be heated electrically.

Patented in the German Empire on July 11, 1912.

The heating of metallic bodies causes deformations of the same. These deformations, which can manifest themselves in particular as changes in volume and strength Assume such dimensions that special aids must be used to to avert its harmful consequences. For the weak, heated by the electric current Wires or ribbons are created as a result

ίο the extremely high temperature used significant deformations; the innovation described below is intended to be more effective Way to avoid their harmful consequences.

It denotes α in Fig. 1 a metallic wire which can be heated by the electric current which is introduced at b and c. When the wire is heated, it expands and assumes a shape similar to that of FIG. This sagging in FIG. 2 is undesirable in some cases. The strength of the thread itself may also have decreased so much that it breaks. In order to counteract these inconveniences, the heated body can be supported one or more times along its length, as FIG. 3 indicates. If this body α is heated again, the resulting deformation takes place approximately according to FIG. 4.

Due to the opposing tensile forces, the thread is subjected to severe stress at the support point; it is therefore necessary to give the support bearing a suitable shape. This is done in a simple manner by introducing the support bearing in a spherical manner, as FIG. 5 indicates. This shape would be sufficient if the heated body were always used in the specified manner, that is to say horizontally or approximately horizontally. In many cases, however, the heated body is used vertically or almost vertically. In these cases, the specified bracket is naturally not suitable. Fig. 6 shows the wire in a vertical position. If there is now heating and with it a change in length, the wire or band will adjust itself as required by gravity and the mechanical stresses that are imposed on it by the processing method. Normally, the shape indicated in an exaggerated manner in FIG. 7 should result. As a result of the heating, the strength of the thread may be weakened to such an extent that a break occurs, for example at χ in FIG. 7, as a result of the pull of its own weight. If the wire is long in relation to its diameter, mechanical shocks will cause it to vibrate, which can also cause breakage. This latter circumstance is countered by guiding the wire in a completely or partially closed loop e , as FIG. 8 indicates. The risk of breakage due to its own weight is reduced by attaching one or more supports d rigidly connected to the thread, as FIG. 9 indicates. These rigid connections d never pose a risk, since the thread is prevented from moving freely. If the case now also occurs that the thread runs in a zigzag line from b to ο , the exact observation

that the deformations of the previously known support or suspension structures of the heated wire has not been sufficiently rendered harmless by antidotes are. Fig. 10 shows the usual form of wire routing, as it is in incandescent lamps, resistors etc. is applied.

The heated thread α is suspended either with supports y or movably with supports ζ. The supports ζ allow a movement of the thread to compensate for the internal tensions; however, it is not convenient to store the wire where it has already undergone significant stresses due to the bending. The present innovation avoids this inconvenience and prevents additional stresses at the bending points. For this purpose, the wire to be heated etc. is given a holder which allows the internal stresses and changes in length to be compensated for and at the same time gives the wire increased strength or rigidity with respect to lateral vibrations.

In Fig. 11 a wire is indicated which is not wound on any fastening body, such as holders, eyelets, bearings and the like. In order to be able to hold the wire in the desired position, wire holders are attached. An embodiment is shown in FIG. 12, in which α denotes the wire and r denotes the holder. The holders are shown on an enlarged scale in FIG. The two jaws of the holder r are of a wavy shape so that the thread a is somewhat clamped. The jaws themselves do not touch each other, so that the thread is movable and can adjust to both sides. The shape of the jaws, their distance from one another, however, is such that the thread does not slide through the holder by its own weight or as a result of vibrations. The holders allow any position of the heated body, as shown in FIGS. 14, 15 and 16.

These holders are always attached where there is no change in direction of the heated one Body takes place. The holders have become stiffeners and relieve the wire in best way.

It is not necessary that the holder described between the power supply connections lie or be attached. Rather, they can also take the place of the power supply lines themselves, as shown in Fig. 17 is indicated.

From the above it follows that the described wire holder is to be heated Hold wire, tape, or the like in a desired, precisely determinable position or position. That Holding is done by the wave-shaped shape of the holder jaws, which are placed in this way are that the elevation of one jaw engages in the recess of the other while maintaining an air space into which the body to be heated is brought.

The resulting wave-like shape of the body to be heated prevents it from slipping through.

Claims (2)

Patent-to sayings: 1. Holder for wires or tapes to be heated electrically, characterized by two wave-shaped or zigzag-shaped jaws, which are so opposite- ' stand that the elevation of one fits into the depression of the other, whereby a gap remains in which the wire or tape to be heated is placed so that the body, which assumes a zigzag or wave shape similar to the jaws, without destroying this shape cannot be pulled out of the jaws in the direction of the longitudinal axis of the wire, while it is perpendicular to its longitudinal axis can be moved and removed without destroying its shape. 2. Holder according to claim 1, characterized in that the device simultaneously is used as a power supply. 1 sheet of drawings.